Low-cost fabrication of a paper-based microfluidic using a folded pattern paper.

Despite that microfluidic paper-based analytical devices (μPADs) provide effective analytical platforms for point-of-care diagnosis in resource-limited areas, it remains challenging to achieve simple and low-cost fabrication of μPADs. A novel method for fabrication of μPADs is developed in this study using a folded polydimethylsiloxane (PDMS)-coated paper mask with a specific pattern to form a sandwich structure with inserted chromatographic paper. PDMS penetrates the target paper from the front and the back sides, and then is cured in the target paper to form legible channels. This method for prototyping μPADs has many favorable merits including simple operation without the need of trained personnel, fast fabrication and low cost. We further investigated colorimetric detection of melamine in the μPADs, and it showed a remarkable measurement with a detection limit of 0.1 ppm in aqueous solutions and liquid milk discriminated by the naked eye, which meets the detection limit required by USA and China. The fabricating strategy developed in this study is very promising and attractive for the development of simple μPADs for point-of-care applications, including diagnostic testing, food safety control and environmental monitoring.